Results 221 to 230 of about 28,986 (259)

Maxwellian Distribution-Based Hall Transport Coefficients for Charged Particles in Magnetic Disk Array. [PDF]

Entropy (Basel)
An L, Fan P.
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A deep learning approach: physics-informed neural networks for solving a nonlinear telegraph equation with different boundary conditions. [PDF]

BMC Res Notes
Deresse AT, Bekela AS.
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Formation Mechanism and Motion Characteristics of Multiple Jets in Spherical Section Free Surface Electrospinning. [PDF]

Materials (Basel)
Yin J, Xu L.
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Investigating Solar Wind Outflows from Open-Closed Magnetic Field Structures Using Coordinated Solar Orbiter and Hinode Observations. [PDF]

Sol Phys
Ngampoopun N, Susino R, Brooks DH, Lionello R, Abbo L, Spadaro D, Baker D, Green LM, Long DM, Yardley SL, James AW, Romoli M, Giordano SM, Burtovoi A, Landini F, Russano G.   +15 more
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High-frequency magnetohydrodynamics

Physics Letters A, 2023
We consider the case that the displacement current is not neglected in the classical MHD equations, as it is usually done. This amounts to cast them in the relativistic framework of a finite speed of light. We show some consequences in describing magnetic reconnection phenomena and for hydromagnetic waves.
Spligler, Renato
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Undriven magnetic reconnection in magnetohydrodynamics and Hall magnetohydrodynamics [PDF]

Journal of Geophysical Research: Space Physics, 1997
Undriven magnetic reconnection in a one‐dimensional current sheet is investigated by means of a two‐dimensional compressible and resistive Hall MHD (HMHD) code. Reconnection is set up by applying a spatially limited resistivity in the center of an isothermal Harris sheet.
M. Scholar, R.-F. Lottermoser
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Numerical Magnetohydrodynamics

Fusion Science and Technology, 2008
The ideal MagnetoHydroDynamic (MHD) equations accurately describe the macroscopic dynamics of a perfectly conducting plasma. Adopting a continuum, single fluid description in terms of the plasma density rho, velocity v, thermal pressure p and magnetic field B, the ideal MHD system expresses conservation of mass, momentum, energy, and magnetic flux ...
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MAGNETOHYDRODYNAMICS

1984
Publisher Summary This chapter discusses magnetohydrodynamics. If a conducting fluid moves in a magnetic field, electric fields are induced in it and electric currents flow. The magnetic field exerts forces on these currents that may considerably modify the flow.
E.M. Lifshitz, Lev Davidovich Landau
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Electrodynamics and Magnetohydrodynamics

2021
Electrodynamics studies the behaviour of a system composed of electromagnetic fields and a conducting fluid (liquid or gaseous). The fields act on the electrons and on the ions producing currents. In turn currents cause alterations in the electro-magnetic field: hence, we have to do with a complicated coupled system of matter and fields.
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